/**************************************************************************** Copyright (c) 2010-2012 cocos2d-x.org Copyright (c) 2008-2010 Ricardo Quesada Copyright (c) 2011 Zynga Inc. http://www.cocos2d-x.org Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. ****************************************************************************/ #include "CCTransition.h" #include "CCCamera.h" #include "support/CCPointExtension.h" #include "CCDirector.h" #include "touch_dispatcher/CCTouchDispatcher.h" #include "actions/CCActionInterval.h" #include "actions/CCActionInstant.h" #include "actions/CCActionEase.h" #include "actions/CCActionCamera.h" #include "actions/CCActionTiledGrid.h" #include "actions/CCActionGrid.h" #include "CCLayer.h" #include "misc_nodes/CCRenderTexture.h" NS_CC_BEGIN const unsigned int kSceneFade = 0xFADEFADE; CCTransitionScene::CCTransitionScene() { } CCTransitionScene::~CCTransitionScene() { m_pInScene->release(); m_pOutScene->release(); } CCTransitionScene * CCTransitionScene::create(float t, CCScene *scene) { CCTransitionScene * pScene = new CCTransitionScene(); if(pScene && pScene->initWithDuration(t,scene)) { pScene->autorelease(); return pScene; } CC_SAFE_DELETE(pScene); return NULL; } bool CCTransitionScene::initWithDuration(float t, CCScene *scene) { CCAssert( scene != NULL, "Argument scene must be non-nil"); if (CCScene::init()) { m_fDuration = t; // retain m_pInScene = scene; m_pInScene->retain(); m_pOutScene = CCDirector::sharedDirector()->getRunningScene(); if (m_pOutScene == NULL) { m_pOutScene = CCScene::create(); m_pOutScene->init(); } m_pOutScene->retain(); CCAssert( m_pInScene != m_pOutScene, "Incoming scene must be different from the outgoing scene" ); return true; } else { return false; } } void CCTransitionScene::sceneOrder() { m_bIsInSceneOnTop = true; } void CCTransitionScene::draw() { CCScene::draw(); if( m_bIsInSceneOnTop ) { m_pOutScene->visit(); m_pInScene->visit(); } else { m_pInScene->visit(); m_pOutScene->visit(); } } void CCTransitionScene::finish() { // clean up m_pInScene->setVisible(true); m_pInScene->setPosition(ccp(0,0)); m_pInScene->setScale(1.0f); m_pInScene->setRotation(0.0f); m_pInScene->getCamera()->restore(); m_pOutScene->setVisible(false); m_pOutScene->setPosition(ccp(0,0)); m_pOutScene->setScale(1.0f); m_pOutScene->setRotation(0.0f); m_pOutScene->getCamera()->restore(); //[self schedule:@selector(setNewScene:) interval:0]; this->schedule(schedule_selector(CCTransitionScene::setNewScene), 0); } void CCTransitionScene::setNewScene(float dt) { CC_UNUSED_PARAM(dt); this->unschedule(schedule_selector(CCTransitionScene::setNewScene)); // Before replacing, save the "send cleanup to scene" CCDirector *director = CCDirector::sharedDirector(); m_bIsSendCleanupToScene = director->isSendCleanupToScene(); director->replaceScene(m_pInScene); // issue #267 m_pOutScene->setVisible(true); } void CCTransitionScene::hideOutShowIn() { m_pInScene->setVisible(true); m_pOutScene->setVisible(false); } // custom onEnter void CCTransitionScene::onEnter() { CCScene::onEnter(); // disable events while transitions CCDirector::sharedDirector()->getTouchDispatcher()->setDispatchEvents(false); // outScene should not receive the onEnter callback // only the onExitTransitionDidStart m_pOutScene->onExitTransitionDidStart(); m_pInScene->onEnter(); } // custom onExit void CCTransitionScene::onExit() { CCScene::onExit(); // enable events while transitions CCDirector::sharedDirector()->getTouchDispatcher()->setDispatchEvents(true); m_pOutScene->onExit(); // m_pInScene should not receive the onEnter callback // only the onEnterTransitionDidFinish m_pInScene->onEnterTransitionDidFinish(); } // custom cleanup void CCTransitionScene::cleanup() { CCScene::cleanup(); if( m_bIsSendCleanupToScene ) m_pOutScene->cleanup(); } // // Oriented Transition // CCTransitionSceneOriented::CCTransitionSceneOriented() { } CCTransitionSceneOriented::~CCTransitionSceneOriented() { } CCTransitionSceneOriented * CCTransitionSceneOriented::create(float t, CCScene *scene, tOrientation orientation) { CCTransitionSceneOriented * pScene = new CCTransitionSceneOriented(); pScene->initWithDuration(t,scene,orientation); pScene->autorelease(); return pScene; } bool CCTransitionSceneOriented::initWithDuration(float t, CCScene *scene, tOrientation orientation) { if ( CCTransitionScene::initWithDuration(t, scene) ) { m_eOrientation = orientation; } return true; } // // RotoZoom // CCTransitionRotoZoom::CCTransitionRotoZoom() { } CCTransitionRotoZoom* CCTransitionRotoZoom::create(float t, CCScene* scene) { CCTransitionRotoZoom* pScene = new CCTransitionRotoZoom(); if(pScene && pScene->initWithDuration(t, scene)) { pScene->autorelease(); return pScene; } CC_SAFE_DELETE(pScene); return NULL; } CCTransitionRotoZoom::~CCTransitionRotoZoom() { } void CCTransitionRotoZoom:: onEnter() { CCTransitionScene::onEnter(); m_pInScene->setScale(0.001f); m_pOutScene->setScale(1.0f); m_pInScene->setAnchorPoint(ccp(0.5f, 0.5f)); m_pOutScene->setAnchorPoint(ccp(0.5f, 0.5f)); CCActionInterval *rotozoom = (CCActionInterval*)(CCSequence::create ( CCSpawn::create ( CCScaleBy::create(m_fDuration/2, 0.001f), CCRotateBy::create(m_fDuration/2, 360 * 2), NULL ), CCDelayTime::create(m_fDuration/2), NULL )); m_pOutScene->runAction(rotozoom); m_pInScene->runAction ( CCSequence::create ( rotozoom->reverse(), CCCallFunc::create(this, callfunc_selector(CCTransitionScene::finish)), NULL ) ); } // // JumpZoom // CCTransitionJumpZoom::CCTransitionJumpZoom() { } CCTransitionJumpZoom::~CCTransitionJumpZoom() { } CCTransitionJumpZoom* CCTransitionJumpZoom::create(float t, CCScene* scene) { CCTransitionJumpZoom* pScene = new CCTransitionJumpZoom(); if(pScene && pScene->initWithDuration(t, scene)) { pScene->autorelease(); return pScene; } CC_SAFE_DELETE(pScene); return NULL; } void CCTransitionJumpZoom::onEnter() { CCTransitionScene::onEnter(); CCSize s = CCDirector::sharedDirector()->getWinSize(); m_pInScene->setScale(0.5f); m_pInScene->setPosition(ccp(s.width, 0)); m_pInScene->setAnchorPoint(ccp(0.5f, 0.5f)); m_pOutScene->setAnchorPoint(ccp(0.5f, 0.5f)); CCActionInterval *jump = CCJumpBy::create(m_fDuration/4, ccp(-s.width,0), s.width/4, 2); CCActionInterval *scaleIn = CCScaleTo::create(m_fDuration/4, 1.0f); CCActionInterval *scaleOut = CCScaleTo::create(m_fDuration/4, 0.5f); CCActionInterval *jumpZoomOut = (CCActionInterval*)(CCSequence::create(scaleOut, jump, NULL)); CCActionInterval *jumpZoomIn = (CCActionInterval*)(CCSequence::create(jump, scaleIn, NULL)); CCActionInterval *delay = CCDelayTime::create(m_fDuration/2); m_pOutScene->runAction(jumpZoomOut); m_pInScene->runAction ( CCSequence::create ( delay, jumpZoomIn, CCCallFunc::create(this, callfunc_selector(CCTransitionScene::finish)), NULL ) ); } // // MoveInL // CCTransitionMoveInL::CCTransitionMoveInL() { } CCTransitionMoveInL::~CCTransitionMoveInL() { } CCTransitionMoveInL* CCTransitionMoveInL::create(float t, CCScene* scene) { CCTransitionMoveInL* pScene = new CCTransitionMoveInL(); if(pScene && pScene->initWithDuration(t, scene)) { pScene->autorelease(); return pScene; } CC_SAFE_DELETE(pScene); return NULL; } void CCTransitionMoveInL::onEnter() { CCTransitionScene::onEnter(); this->initScenes(); CCActionInterval *a = this->action(); m_pInScene->runAction ( CCSequence::create ( this->easeActionWithAction(a), CCCallFunc::create(this, callfunc_selector(CCTransitionScene::finish)), NULL ) ); } CCActionInterval* CCTransitionMoveInL::action() { return CCMoveTo::create(m_fDuration, ccp(0,0)); } CCActionInterval* CCTransitionMoveInL::easeActionWithAction(CCActionInterval* action) { return CCEaseOut::create(action, 2.0f); // return [EaseElasticOut actionWithAction:action period:0.4f]; } void CCTransitionMoveInL::initScenes() { CCSize s = CCDirector::sharedDirector()->getWinSize(); m_pInScene->setPosition( ccp(-s.width,0) ); } // // MoveInR // CCTransitionMoveInR::CCTransitionMoveInR() { } CCTransitionMoveInR::~CCTransitionMoveInR() { } CCTransitionMoveInR* CCTransitionMoveInR::create(float t, CCScene* scene) { CCTransitionMoveInR* pScene = new CCTransitionMoveInR(); if(pScene && pScene->initWithDuration(t, scene)) { pScene->autorelease(); return pScene; } CC_SAFE_DELETE(pScene); return NULL; } void CCTransitionMoveInR::initScenes() { CCSize s = CCDirector::sharedDirector()->getWinSize(); m_pInScene->setPosition( ccp(s.width,0) ); } // // MoveInT // CCTransitionMoveInT::CCTransitionMoveInT() { } CCTransitionMoveInT::~CCTransitionMoveInT() { } CCTransitionMoveInT* CCTransitionMoveInT::create(float t, CCScene* scene) { CCTransitionMoveInT* pScene = new CCTransitionMoveInT(); if(pScene && pScene->initWithDuration(t, scene)) { pScene->autorelease(); return pScene; } CC_SAFE_DELETE(pScene); return NULL; } void CCTransitionMoveInT::initScenes() { CCSize s = CCDirector::sharedDirector()->getWinSize(); m_pInScene->setPosition( ccp(0,s.height) ); } // // MoveInB // CCTransitionMoveInB::CCTransitionMoveInB() { } CCTransitionMoveInB::~CCTransitionMoveInB() { } CCTransitionMoveInB* CCTransitionMoveInB::create(float t, CCScene* scene) { CCTransitionMoveInB* pScene = new CCTransitionMoveInB(); if(pScene && pScene->initWithDuration(t, scene)) { pScene->autorelease(); return pScene; } CC_SAFE_DELETE(pScene); return NULL; } void CCTransitionMoveInB::initScenes() { CCSize s = CCDirector::sharedDirector()->getWinSize(); m_pInScene->setPosition( ccp(0,-s.height) ); } // // SlideInL // // The adjust factor is needed to prevent issue #442 // One solution is to use DONT_RENDER_IN_SUBPIXELS images, but NO // The other issue is that in some transitions (and I don't know why) // the order should be reversed (In in top of Out or vice-versa). #define ADJUST_FACTOR 0.5f CCTransitionSlideInL::CCTransitionSlideInL() { } CCTransitionSlideInL::~CCTransitionSlideInL() { } void CCTransitionSlideInL::onEnter() { CCTransitionScene::onEnter(); this->initScenes(); CCActionInterval *in = this->action(); CCActionInterval *out = this->action(); CCActionInterval* inAction = easeActionWithAction(in); CCActionInterval* outAction = (CCActionInterval*)CCSequence::create ( easeActionWithAction(out), CCCallFunc::create(this, callfunc_selector(CCTransitionScene::finish)), NULL ); m_pInScene->runAction(inAction); m_pOutScene->runAction(outAction); } void CCTransitionSlideInL::sceneOrder() { m_bIsInSceneOnTop = false; } void CCTransitionSlideInL:: initScenes() { CCSize s = CCDirector::sharedDirector()->getWinSize(); m_pInScene->setPosition( ccp(-(s.width-ADJUST_FACTOR),0) ); } CCActionInterval* CCTransitionSlideInL::action() { CCSize s = CCDirector::sharedDirector()->getWinSize(); return CCMoveBy::create(m_fDuration, ccp(s.width-ADJUST_FACTOR,0)); } CCActionInterval* CCTransitionSlideInL::easeActionWithAction(CCActionInterval* action) { return CCEaseOut::create(action, 2.0f); } CCTransitionSlideInL* CCTransitionSlideInL::create(float t, CCScene* scene) { CCTransitionSlideInL* pScene = new CCTransitionSlideInL(); if(pScene && pScene->initWithDuration(t, scene)) { pScene->autorelease(); return pScene; } CC_SAFE_DELETE(pScene); return NULL; } // // SlideInR // CCTransitionSlideInR::CCTransitionSlideInR() { } CCTransitionSlideInR::~CCTransitionSlideInR() { } CCTransitionSlideInR* CCTransitionSlideInR::create(float t, CCScene* scene) { CCTransitionSlideInR* pScene = new CCTransitionSlideInR(); if(pScene && pScene->initWithDuration(t, scene)) { pScene->autorelease(); return pScene; } CC_SAFE_DELETE(pScene); return NULL; } void CCTransitionSlideInR::sceneOrder() { m_bIsInSceneOnTop = true; } void CCTransitionSlideInR::initScenes() { CCSize s = CCDirector::sharedDirector()->getWinSize(); m_pInScene->setPosition( ccp(s.width-ADJUST_FACTOR,0) ); } CCActionInterval* CCTransitionSlideInR:: action() { CCSize s = CCDirector::sharedDirector()->getWinSize(); return CCMoveBy::create(m_fDuration, ccp(-(s.width-ADJUST_FACTOR),0)); } // // SlideInT // CCTransitionSlideInT::CCTransitionSlideInT() { } CCTransitionSlideInT::~CCTransitionSlideInT() { } CCTransitionSlideInT* CCTransitionSlideInT::create(float t, CCScene* scene) { CCTransitionSlideInT* pScene = new CCTransitionSlideInT(); if(pScene && pScene->initWithDuration(t, scene)) { pScene->autorelease(); return pScene; } CC_SAFE_DELETE(pScene); return NULL; } void CCTransitionSlideInT::sceneOrder() { m_bIsInSceneOnTop = false; } void CCTransitionSlideInT::initScenes() { CCSize s = CCDirector::sharedDirector()->getWinSize(); m_pInScene->setPosition( ccp(0,s.height-ADJUST_FACTOR) ); } CCActionInterval* CCTransitionSlideInT::action() { CCSize s = CCDirector::sharedDirector()->getWinSize(); return CCMoveBy::create(m_fDuration, ccp(0,-(s.height-ADJUST_FACTOR))); } // // SlideInB // CCTransitionSlideInB::CCTransitionSlideInB() { } CCTransitionSlideInB::~CCTransitionSlideInB() { } CCTransitionSlideInB* CCTransitionSlideInB::create(float t, CCScene* scene) { CCTransitionSlideInB* pScene = new CCTransitionSlideInB(); if(pScene && pScene->initWithDuration(t, scene)) { pScene->autorelease(); return pScene; } CC_SAFE_DELETE(pScene); return NULL; } void CCTransitionSlideInB::sceneOrder() { m_bIsInSceneOnTop = true; } void CCTransitionSlideInB:: initScenes() { CCSize s = CCDirector::sharedDirector()->getWinSize(); m_pInScene->setPosition( ccp(0,-(s.height-ADJUST_FACTOR)) ); } CCActionInterval* CCTransitionSlideInB:: action() { CCSize s = CCDirector::sharedDirector()->getWinSize(); return CCMoveBy::create(m_fDuration, ccp(0,s.height-ADJUST_FACTOR)); } // // ShrinkGrow Transition // CCTransitionShrinkGrow::CCTransitionShrinkGrow() { } CCTransitionShrinkGrow::~CCTransitionShrinkGrow() { } CCTransitionShrinkGrow* CCTransitionShrinkGrow::create(float t, CCScene* scene) { CCTransitionShrinkGrow* pScene = new CCTransitionShrinkGrow(); if(pScene && pScene->initWithDuration(t, scene)) { pScene->autorelease(); return pScene; } CC_SAFE_DELETE(pScene); return NULL; } void CCTransitionShrinkGrow::onEnter() { CCTransitionScene::onEnter(); m_pInScene->setScale(0.001f); m_pOutScene->setScale(1.0f); m_pInScene->setAnchorPoint(ccp(2/3.0f,0.5f)); m_pOutScene->setAnchorPoint(ccp(1/3.0f,0.5f)); CCActionInterval* scaleOut = CCScaleTo::create(m_fDuration, 0.01f); CCActionInterval* scaleIn = CCScaleTo::create(m_fDuration, 1.0f); m_pInScene->runAction(this->easeActionWithAction(scaleIn)); m_pOutScene->runAction ( CCSequence::create ( this->easeActionWithAction(scaleOut), CCCallFunc::create(this, callfunc_selector(CCTransitionScene::finish)), NULL ) ); } CCActionInterval* CCTransitionShrinkGrow:: easeActionWithAction(CCActionInterval* action) { return CCEaseOut::create(action, 2.0f); // return [EaseElasticOut actionWithAction:action period:0.3f]; } // // FlipX Transition // CCTransitionFlipX::CCTransitionFlipX() { } CCTransitionFlipX::~CCTransitionFlipX() { } void CCTransitionFlipX::onEnter() { CCTransitionSceneOriented::onEnter(); CCActionInterval *inA, *outA; m_pInScene->setVisible(false); float inDeltaZ, inAngleZ; float outDeltaZ, outAngleZ; if( m_eOrientation == kCCTransitionOrientationRightOver ) { inDeltaZ = 90; inAngleZ = 270; outDeltaZ = 90; outAngleZ = 0; } else { inDeltaZ = -90; inAngleZ = 90; outDeltaZ = -90; outAngleZ = 0; } inA = (CCActionInterval*)CCSequence::create ( CCDelayTime::create(m_fDuration/2), CCShow::create(), CCOrbitCamera::create(m_fDuration/2, 1, 0, inAngleZ, inDeltaZ, 0, 0), CCCallFunc::create(this, callfunc_selector(CCTransitionScene::finish)), NULL ); outA = (CCActionInterval *)CCSequence::create ( CCOrbitCamera::create(m_fDuration/2, 1, 0, outAngleZ, outDeltaZ, 0, 0), CCHide::create(), CCDelayTime::create(m_fDuration/2), NULL ); m_pInScene->runAction(inA); m_pOutScene->runAction(outA); } CCTransitionFlipX* CCTransitionFlipX::create(float t, CCScene* s, tOrientation o) { CCTransitionFlipX* pScene = new CCTransitionFlipX(); pScene->initWithDuration(t, s, o); pScene->autorelease(); return pScene; } CCTransitionFlipX* CCTransitionFlipX::create(float t, CCScene* s) { return CCTransitionFlipX::create(t, s, kCCTransitionOrientationRightOver); } // // FlipY Transition // CCTransitionFlipY::CCTransitionFlipY() { } CCTransitionFlipY::~CCTransitionFlipY() { } void CCTransitionFlipY::onEnter() { CCTransitionSceneOriented::onEnter(); CCActionInterval *inA, *outA; m_pInScene->setVisible(false); float inDeltaZ, inAngleZ; float outDeltaZ, outAngleZ; if( m_eOrientation == kCCTransitionOrientationUpOver ) { inDeltaZ = 90; inAngleZ = 270; outDeltaZ = 90; outAngleZ = 0; } else { inDeltaZ = -90; inAngleZ = 90; outDeltaZ = -90; outAngleZ = 0; } inA = (CCActionInterval*)CCSequence::create ( CCDelayTime::create(m_fDuration/2), CCShow::create(), CCOrbitCamera::create(m_fDuration/2, 1, 0, inAngleZ, inDeltaZ, 90, 0), CCCallFunc::create(this, callfunc_selector(CCTransitionScene::finish)), NULL ); outA = (CCActionInterval*)CCSequence::create ( CCOrbitCamera::create(m_fDuration/2, 1, 0, outAngleZ, outDeltaZ, 90, 0), CCHide::create(), CCDelayTime::create(m_fDuration/2), NULL ); m_pInScene->runAction(inA); m_pOutScene->runAction(outA); } CCTransitionFlipY* CCTransitionFlipY::create(float t, CCScene* s, tOrientation o) { CCTransitionFlipY* pScene = new CCTransitionFlipY(); pScene->initWithDuration(t, s, o); pScene->autorelease(); return pScene; } CCTransitionFlipY* CCTransitionFlipY::create(float t, CCScene* s) { return CCTransitionFlipY::create(t, s, kCCTransitionOrientationUpOver); } // // FlipAngular Transition // CCTransitionFlipAngular::CCTransitionFlipAngular() { } CCTransitionFlipAngular::~CCTransitionFlipAngular() { } void CCTransitionFlipAngular::onEnter() { CCTransitionSceneOriented::onEnter(); CCActionInterval *inA, *outA; m_pInScene->setVisible(false); float inDeltaZ, inAngleZ; float outDeltaZ, outAngleZ; if( m_eOrientation == kCCTransitionOrientationRightOver ) { inDeltaZ = 90; inAngleZ = 270; outDeltaZ = 90; outAngleZ = 0; } else { inDeltaZ = -90; inAngleZ = 90; outDeltaZ = -90; outAngleZ = 0; } inA = (CCActionInterval *)CCSequence::create ( CCDelayTime::create(m_fDuration/2), CCShow::create(), CCOrbitCamera::create(m_fDuration/2, 1, 0, inAngleZ, inDeltaZ, -45, 0), CCCallFunc::create(this, callfunc_selector(CCTransitionScene::finish)), NULL ); outA = (CCActionInterval *)CCSequence::create ( CCOrbitCamera::create(m_fDuration/2, 1, 0, outAngleZ, outDeltaZ, 45, 0), CCHide::create(), CCDelayTime::create(m_fDuration/2), NULL ); m_pInScene->runAction(inA); m_pOutScene->runAction(outA); } CCTransitionFlipAngular* CCTransitionFlipAngular::create(float t, CCScene* s, tOrientation o) { CCTransitionFlipAngular* pScene = new CCTransitionFlipAngular(); pScene->initWithDuration(t, s, o); pScene->autorelease(); return pScene; } CCTransitionFlipAngular* CCTransitionFlipAngular::create(float t, CCScene* s) { return CCTransitionFlipAngular::create(t, s, kCCTransitionOrientationRightOver); } // // ZoomFlipX Transition // CCTransitionZoomFlipX::CCTransitionZoomFlipX() { } CCTransitionZoomFlipX::~CCTransitionZoomFlipX() { } void CCTransitionZoomFlipX::onEnter() { CCTransitionSceneOriented::onEnter(); CCActionInterval *inA, *outA; m_pInScene->setVisible(false); float inDeltaZ, inAngleZ; float outDeltaZ, outAngleZ; if( m_eOrientation == kCCTransitionOrientationRightOver ) { inDeltaZ = 90; inAngleZ = 270; outDeltaZ = 90; outAngleZ = 0; } else { inDeltaZ = -90; inAngleZ = 90; outDeltaZ = -90; outAngleZ = 0; } inA = (CCActionInterval *)CCSequence::create ( CCDelayTime::create(m_fDuration/2), CCSpawn::create ( CCOrbitCamera::create(m_fDuration/2, 1, 0, inAngleZ, inDeltaZ, 0, 0), CCScaleTo::create(m_fDuration/2, 1), CCShow::create(), NULL ), CCCallFunc::create(this, callfunc_selector(CCTransitionScene::finish)), NULL ); outA = (CCActionInterval *)CCSequence::create ( CCSpawn::create ( CCOrbitCamera::create(m_fDuration/2, 1, 0, outAngleZ, outDeltaZ, 0, 0), CCScaleTo::create(m_fDuration/2, 0.5f), NULL ), CCHide::create(), CCDelayTime::create(m_fDuration/2), NULL ); m_pInScene->setScale(0.5f); m_pInScene->runAction(inA); m_pOutScene->runAction(outA); } CCTransitionZoomFlipX* CCTransitionZoomFlipX::create(float t, CCScene* s, tOrientation o) { CCTransitionZoomFlipX* pScene = new CCTransitionZoomFlipX(); pScene->initWithDuration(t, s, o); pScene->autorelease(); return pScene; } CCTransitionZoomFlipX* CCTransitionZoomFlipX::create(float t, CCScene* s) { return CCTransitionZoomFlipX::create(t, s, kCCTransitionOrientationRightOver); } // // ZoomFlipY Transition // CCTransitionZoomFlipY::CCTransitionZoomFlipY() { } CCTransitionZoomFlipY::~CCTransitionZoomFlipY() { } void CCTransitionZoomFlipY::onEnter() { CCTransitionSceneOriented::onEnter(); CCActionInterval *inA, *outA; m_pInScene->setVisible(false); float inDeltaZ, inAngleZ; float outDeltaZ, outAngleZ; if( m_eOrientation== kCCTransitionOrientationUpOver ) { inDeltaZ = 90; inAngleZ = 270; outDeltaZ = 90; outAngleZ = 0; } else { inDeltaZ = -90; inAngleZ = 90; outDeltaZ = -90; outAngleZ = 0; } inA = (CCActionInterval *)CCSequence::create ( CCDelayTime::create(m_fDuration/2), CCSpawn::create ( CCOrbitCamera::create(m_fDuration/2, 1, 0, inAngleZ, inDeltaZ, 90, 0), CCScaleTo::create(m_fDuration/2, 1), CCShow::create(), NULL ), CCCallFunc::create(this, callfunc_selector(CCTransitionScene::finish)), NULL ); outA = (CCActionInterval *)CCSequence::create ( CCSpawn::create ( CCOrbitCamera::create(m_fDuration/2, 1, 0, outAngleZ, outDeltaZ, 90, 0), CCScaleTo::create(m_fDuration/2, 0.5f), NULL ), CCHide::create(), CCDelayTime::create(m_fDuration/2), NULL ); m_pInScene->setScale(0.5f); m_pInScene->runAction(inA); m_pOutScene->runAction(outA); } CCTransitionZoomFlipY* CCTransitionZoomFlipY::create(float t, CCScene* s, tOrientation o) { CCTransitionZoomFlipY* pScene = new CCTransitionZoomFlipY(); pScene->initWithDuration(t, s, o); pScene->autorelease(); return pScene; } CCTransitionZoomFlipY* CCTransitionZoomFlipY::create(float t, CCScene* s) { return CCTransitionZoomFlipY::create(t, s, kCCTransitionOrientationUpOver); } // // ZoomFlipAngular Transition // CCTransitionZoomFlipAngular::CCTransitionZoomFlipAngular() { } CCTransitionZoomFlipAngular::~CCTransitionZoomFlipAngular() { } void CCTransitionZoomFlipAngular::onEnter() { CCTransitionSceneOriented::onEnter(); CCActionInterval *inA, *outA; m_pInScene->setVisible(false); float inDeltaZ, inAngleZ; float outDeltaZ, outAngleZ; if( m_eOrientation == kCCTransitionOrientationRightOver ) { inDeltaZ = 90; inAngleZ = 270; outDeltaZ = 90; outAngleZ = 0; } else { inDeltaZ = -90; inAngleZ = 90; outDeltaZ = -90; outAngleZ = 0; } inA = (CCActionInterval *)CCSequence::create ( CCDelayTime::create(m_fDuration/2), CCSpawn::create ( CCOrbitCamera::create(m_fDuration/2, 1, 0, inAngleZ, inDeltaZ, -45, 0), CCScaleTo::create(m_fDuration/2, 1), CCShow::create(), NULL ), CCShow::create(), CCCallFunc::create(this, callfunc_selector(CCTransitionScene::finish)), NULL ); outA = (CCActionInterval *)CCSequence::create ( CCSpawn::create ( CCOrbitCamera::create(m_fDuration/2, 1, 0 , outAngleZ, outDeltaZ, 45, 0), CCScaleTo::create(m_fDuration/2, 0.5f), NULL ), CCHide::create(), CCDelayTime::create(m_fDuration/2), NULL ); m_pInScene->setScale(0.5f); m_pInScene->runAction(inA); m_pOutScene->runAction(outA); } CCTransitionZoomFlipAngular* CCTransitionZoomFlipAngular::create(float t, CCScene* s, tOrientation o) { CCTransitionZoomFlipAngular* pScene = new CCTransitionZoomFlipAngular(); pScene->initWithDuration(t, s, o); pScene->autorelease(); return pScene; } CCTransitionZoomFlipAngular* CCTransitionZoomFlipAngular::create(float t, CCScene* s) { return CCTransitionZoomFlipAngular::create(t, s, kCCTransitionOrientationRightOver); } // // Fade Transition // CCTransitionFade::CCTransitionFade() { } CCTransitionFade::~CCTransitionFade() { } CCTransitionFade * CCTransitionFade::create(float duration, CCScene *scene, const ccColor3B& color) { CCTransitionFade * pTransition = new CCTransitionFade(); pTransition->initWithDuration(duration, scene, color); pTransition->autorelease(); return pTransition; } CCTransitionFade* CCTransitionFade::create(float duration,CCScene* scene) { return CCTransitionFade::create(duration, scene, ccBLACK); } bool CCTransitionFade::initWithDuration(float duration, CCScene *scene, const ccColor3B& color) { if (CCTransitionScene::initWithDuration(duration, scene)) { m_tColor.r = color.r; m_tColor.g = color.g; m_tColor.b = color.b; m_tColor.a = 0; } return true; } bool CCTransitionFade::initWithDuration(float t, CCScene *scene) { this->initWithDuration(t, scene, ccBLACK); return true; } void CCTransitionFade :: onEnter() { CCTransitionScene::onEnter(); CCLayerColor* l = CCLayerColor::create(m_tColor); m_pInScene->setVisible(false); addChild(l, 2, kSceneFade); CCNode* f = getChildByTag(kSceneFade); CCActionInterval* a = (CCActionInterval *)CCSequence::create ( CCFadeIn::create(m_fDuration/2), CCCallFunc::create(this, callfunc_selector(CCTransitionScene::hideOutShowIn)),//CCCallFunc::create:self selector:@selector(hideOutShowIn)], CCFadeOut::create(m_fDuration/2), CCCallFunc::create(this, callfunc_selector(CCTransitionScene::finish)), //:self selector:@selector(finish)], NULL ); f->runAction(a); } void CCTransitionFade::onExit() { CCTransitionScene::onExit(); this->removeChildByTag(kSceneFade, false); } // // Cross Fade Transition // CCTransitionCrossFade::CCTransitionCrossFade() { } CCTransitionCrossFade::~CCTransitionCrossFade() { } CCTransitionCrossFade* CCTransitionCrossFade::create(float t, CCScene* scene) { CCTransitionCrossFade* pScene = new CCTransitionCrossFade(); if(pScene && pScene->initWithDuration(t, scene)) { pScene->autorelease(); return pScene; } CC_SAFE_DELETE(pScene); return NULL; } void CCTransitionCrossFade:: draw() { // override draw since both scenes (textures) are rendered in 1 scene } void CCTransitionCrossFade::onEnter() { CCTransitionScene::onEnter(); // create a transparent color layer // in which we are going to add our rendertextures ccColor4B color = {0,0,0,0}; CCSize size = CCDirector::sharedDirector()->getWinSize(); CCLayerColor* layer = CCLayerColor::create(color); // create the first render texture for inScene CCRenderTexture* inTexture = CCRenderTexture::create((int)size.width, (int)size.height); if (NULL == inTexture) { return; } inTexture->getSprite()->setAnchorPoint( ccp(0.5f,0.5f) ); inTexture->setPosition( ccp(size.width/2, size.height/2) ); inTexture->setAnchorPoint( ccp(0.5f,0.5f) ); // render inScene to its texturebuffer inTexture->begin(); m_pInScene->visit(); inTexture->end(); // create the second render texture for outScene CCRenderTexture* outTexture = CCRenderTexture::create((int)size.width, (int)size.height); outTexture->getSprite()->setAnchorPoint( ccp(0.5f,0.5f) ); outTexture->setPosition( ccp(size.width/2, size.height/2) ); outTexture->setAnchorPoint( ccp(0.5f,0.5f) ); // render outScene to its texturebuffer outTexture->begin(); m_pOutScene->visit(); outTexture->end(); // create blend functions ccBlendFunc blend1 = {GL_ONE, GL_ONE}; // inScene will lay on background and will not be used with alpha ccBlendFunc blend2 = {GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA}; // we are going to blend outScene via alpha // set blendfunctions inTexture->getSprite()->setBlendFunc(blend1); outTexture->getSprite()->setBlendFunc(blend2); // add render textures to the layer layer->addChild(inTexture); layer->addChild(outTexture); // initial opacity: inTexture->getSprite()->setOpacity(255); outTexture->getSprite()->setOpacity(255); // create the blend action CCAction* layerAction = CCSequence::create ( CCFadeTo::create(m_fDuration, 0), CCCallFunc::create(this, callfunc_selector(CCTransitionScene::hideOutShowIn)), CCCallFunc::create(this, callfunc_selector(CCTransitionScene::finish)), NULL ); // run the blend action outTexture->getSprite()->runAction( layerAction ); // add the layer (which contains our two rendertextures) to the scene addChild(layer, 2, kSceneFade); } // clean up on exit void CCTransitionCrossFade::onExit() { // remove our layer and release all containing objects this->removeChildByTag(kSceneFade, false); CCTransitionScene::onExit(); } // // TurnOffTilesTransition // CCTransitionTurnOffTiles::CCTransitionTurnOffTiles() { } CCTransitionTurnOffTiles::~CCTransitionTurnOffTiles() { } CCTransitionTurnOffTiles* CCTransitionTurnOffTiles::create(float t, CCScene* scene) { CCTransitionTurnOffTiles* pScene = new CCTransitionTurnOffTiles(); if(pScene && pScene->initWithDuration(t, scene)) { pScene->autorelease(); return pScene; } CC_SAFE_DELETE(pScene); return NULL; } // override addScenes, and change the order void CCTransitionTurnOffTiles::sceneOrder() { m_bIsInSceneOnTop = false; } void CCTransitionTurnOffTiles::onEnter() { CCTransitionScene::onEnter(); CCSize s = CCDirector::sharedDirector()->getWinSize(); float aspect = s.width / s.height; int x = (int)(12 * aspect); int y = 12; CCTurnOffTiles* toff = CCTurnOffTiles::create( m_fDuration, CCSizeMake(x,y)); CCActionInterval* action = easeActionWithAction(toff); m_pOutScene->runAction ( CCSequence::create ( action, CCCallFunc::create(this, callfunc_selector(CCTransitionScene::finish)), CCStopGrid::create(), NULL ) ); } CCActionInterval* CCTransitionTurnOffTiles:: easeActionWithAction(CCActionInterval* action) { return action; } // // SplitCols Transition // CCTransitionSplitCols::CCTransitionSplitCols() { } CCTransitionSplitCols::~CCTransitionSplitCols() { } CCTransitionSplitCols* CCTransitionSplitCols::create(float t, CCScene* scene) { CCTransitionSplitCols* pScene = new CCTransitionSplitCols(); if(pScene && pScene->initWithDuration(t, scene)) { pScene->autorelease(); return pScene; } CC_SAFE_DELETE(pScene); return NULL; } void CCTransitionSplitCols::onEnter() { CCTransitionScene::onEnter(); m_pInScene->setVisible(false); CCActionInterval* split = action(); CCActionInterval* seq = (CCActionInterval*)CCSequence::create ( split, CCCallFunc::create(this, callfunc_selector(CCTransitionScene::hideOutShowIn)), split->reverse(), NULL ); this->runAction ( CCSequence::create ( easeActionWithAction(seq), CCCallFunc::create(this, callfunc_selector(CCTransitionScene::finish)), CCStopGrid::create(), NULL ) ); } CCActionInterval* CCTransitionSplitCols:: action() { return CCSplitCols::create(m_fDuration/2.0f, 3); } CCActionInterval* CCTransitionSplitCols::easeActionWithAction(CCActionInterval * action) { return CCEaseInOut::create(action, 3.0f); } // // SplitRows Transition // CCTransitionSplitRows::CCTransitionSplitRows() { } CCTransitionSplitRows::~CCTransitionSplitRows() { } CCActionInterval* CCTransitionSplitRows::action() { return CCSplitRows::create(m_fDuration/2.0f, 3); } CCTransitionSplitRows* CCTransitionSplitRows::create(float t, CCScene* scene) { CCTransitionSplitRows* pScene = new CCTransitionSplitRows(); if(pScene && pScene->initWithDuration(t, scene)) { pScene->autorelease(); return pScene; } CC_SAFE_DELETE(pScene); return NULL; } // // FadeTR Transition // CCTransitionFadeTR::CCTransitionFadeTR() { } CCTransitionFadeTR::~CCTransitionFadeTR() { } CCTransitionFadeTR* CCTransitionFadeTR::create(float t, CCScene* scene) { CCTransitionFadeTR* pScene = new CCTransitionFadeTR(); if(pScene && pScene->initWithDuration(t, scene)) { pScene->autorelease(); return pScene; } CC_SAFE_DELETE(pScene); return NULL; } void CCTransitionFadeTR::sceneOrder() { m_bIsInSceneOnTop = false; } void CCTransitionFadeTR::onEnter() { CCTransitionScene::onEnter(); CCSize s = CCDirector::sharedDirector()->getWinSize(); float aspect = s.width / s.height; int x = (int)(12 * aspect); int y = 12; CCActionInterval* action = actionWithSize(CCSizeMake(x,y)); m_pOutScene->runAction ( CCSequence::create ( easeActionWithAction(action), CCCallFunc::create(this, callfunc_selector(CCTransitionScene::finish)), CCStopGrid::create(), NULL ) ); } CCActionInterval* CCTransitionFadeTR::actionWithSize(const CCSize& size) { return CCFadeOutTRTiles::create(m_fDuration, size); } CCActionInterval* CCTransitionFadeTR:: easeActionWithAction(CCActionInterval* action) { return action; } // // FadeBL Transition // CCTransitionFadeBL::CCTransitionFadeBL() { } CCTransitionFadeBL::~CCTransitionFadeBL() { } CCTransitionFadeBL* CCTransitionFadeBL::create(float t, CCScene* scene) { CCTransitionFadeBL* pScene = new CCTransitionFadeBL(); if(pScene && pScene->initWithDuration(t, scene)) { pScene->autorelease(); return pScene; } CC_SAFE_DELETE(pScene); return NULL; } CCActionInterval* CCTransitionFadeBL::actionWithSize(const CCSize& size) { return CCFadeOutBLTiles::create(m_fDuration, size); } // // FadeUp Transition // CCTransitionFadeUp::CCTransitionFadeUp() { } CCTransitionFadeUp::~CCTransitionFadeUp() { } CCTransitionFadeUp* CCTransitionFadeUp::create(float t, CCScene* scene) { CCTransitionFadeUp* pScene = new CCTransitionFadeUp(); if(pScene && pScene->initWithDuration(t, scene)) { pScene->autorelease(); return pScene; } CC_SAFE_DELETE(pScene); return NULL; } CCActionInterval* CCTransitionFadeUp::actionWithSize(const CCSize& size) { return CCFadeOutUpTiles::create(m_fDuration, size); } // // FadeDown Transition // CCTransitionFadeDown::CCTransitionFadeDown() { } CCTransitionFadeDown::~CCTransitionFadeDown() { } CCTransitionFadeDown* CCTransitionFadeDown::create(float t, CCScene* scene) { CCTransitionFadeDown* pScene = new CCTransitionFadeDown(); if(pScene && pScene->initWithDuration(t, scene)) { pScene->autorelease(); return pScene; } CC_SAFE_DELETE(pScene); return NULL; } CCActionInterval* CCTransitionFadeDown::actionWithSize(const CCSize& size) { return CCFadeOutDownTiles::create(m_fDuration, size); } NS_CC_END